RU2013126790A - LATERAL ANALYTICAL DEVICES FOR USE IN THE CLINICAL DIAGNOSTIC DEVICE AND CONFIGURATION OF THE APPROPRIATE CLINICAL DIAGNOSTIC DEVICE - Google Patents

Abstract

1. Sidestream device for use in an automated clinical analyzer, wherein said side stream device comprises a flat substrate having at least one sample addition region and at least one reaction region disposed thereon, said regions communicating with each other via fluid and form at least one side stream path of the fluid, wherein said side stream device is configured to be held inside the storage cassette, formed the inner cavity and having a plurality of said analysis devices sidestream disposed stopkoy.2. The analytical side stream device according to claim 1, further comprising at least one detection region and at least one outlet region, each of these regions being formed on said substrate and communicating in fluid with said at least one region of the sample and indicated by at least one reaction region along said at least one lateral fluid flow path. 3. An analytical lateral flow device according to claim 2, comprising a plurality of vertically extending protrusions formed on the upper surface of said substrate. The lateral flow analytical device according to claim 3, wherein said plurality of protrusions are dimensioned and spaced relative to each other so as to facilitate the generation of a lateral capillary flow along said at least one lateral fluid flow path. The analytical side stream device according to claim 3, wherein said set is high

Claims (65)

1. Sidestream device for use in an automated clinical analyzer, wherein said side stream device comprises a flat substrate having at least one sample addition region and at least one reaction region disposed thereon, said regions communicating with each other via fluid and form at least one side stream path of the fluid, and the specified side stream device is arranged to hold inside the storage cassette, formed the inner cavity and having a plurality of said analysis devices sidestream arranged in a stack. 2. The analytical side stream device according to claim 1, further comprising at least one detection region and at least one outlet region, each of these regions being formed on said substrate and communicating in fluid with said at least one region of the sample and the specified at least one reaction region along the specified at least one path of the lateral fluid flow. 3. The analytical side stream device according to claim 2, comprising a plurality of vertically extending projections made on the upper surface of said substrate. 4. The analytical lateral flow device according to claim 3, wherein said plurality of protrusions are dimensioned and spaced relative to each other to facilitate the creation of a lateral capillary flow along said at least one lateral fluid flow path. 5. The analytical lateral flow device according to claim 3, wherein said plurality of protrusions have a spatial arrangement relative to each other and dimensions that cause spontaneous creation of a lateral capillary flow along said at least one lateral fluid flow path. 6. The analytical side stream device according to claim 5, further comprising a hydrophilic layer located on top of at least a portion of said at least one discharge region. 7. The analytical lateral flow device according to claim 5, wherein the lateral capillary flow along at least one of said lateral fluid flow paths is provided only by said plurality of protrusions. 8. The analytical side stream device according to claim 6, comprising a plurality of reaction regions formed along said at least one flow path. 9. The analytical side stream device according to claim 8, in which at least one reaction region holds at least one reagent. 10. The analytical side stream device according to claim 9, wherein said at least one reagent is attached to protrusions in said reaction region. 11. The analytical side stream device according to claim 8, comprising a first reaction region located relative to said sample addition region. 12. The analytical side stream device according to claim 11, wherein said first reaction region comprises a detection conjugate. 13. The analytical side stream device according to claim 12, wherein a detectable trace is formed as a result of the interaction of the sample and said detection conjugates. 14. The analytical lateral flow device according to claim 3, comprising at least one flow channel located between said at least one sample addition region and said at least one discharge region. 15. The analytical lateral flow device according to claim 14, wherein said protrusions extend upward from the bottom surface of said at least one flow channel. 16. The analytical side flow device according to claim 1, wherein said at least one flow channel is arranged in a curved configuration and extends between said at least one sample addition region and said at least one discharge region. 17. An automated clinical analyzer configured to process a plurality of sidestream analysis devices, each of which side stream devices comprising a substrate and at least one sample addition area located on said substrate and communicating in fluid along at least one side path a fluid stream, wherein said automated clinical analyzer comprises: a dispensing mechanism for dispensing a sample to the sample adding area of at least one side-flow analytical device; an incubator assembly having means for receiving a plurality of said sidestream analytical devices; and at least one detection device for detecting the results of at least one sidestream analysis device. 18. The analyzer according to claim 17, in which these analytical side-stream devices generate fluorescent signals based on adding a sample to said at least one region of adding a sample. 19. The analyzer according to claim 17, wherein said at least one detection device is a fluorimeter. 20. The analyzer according to claim 17, wherein said at least one incubator assembly includes at least one annular element, wherein said at least one annular element has a plurality of receiving stations configured to receive said plurality of side-flow analysis devices. . 21. The analyzer according to claim 17, wherein said at least one detection device is located on or adjacent to the incubator assembly. 22. The analyzer according to claim 17, comprising at least one mechanism for selectively moving said analytical sidestream devices to and from said incubator assembly. 23. The analyzer according to claim 17, in which these analytical devices side flow is stored for use in the specified analyzer in a stack inside at least one storage cassette. 24. The analyzer according to claim 23, wherein said automated clinical analyzer is further configured to process dry moving analytical assay elements. 25. The analyzer according to claim 23, wherein said automated clinical analyzer is further configured to perform liquid chemical analyzes. 26. The analyzer according to claim 24, in which the specified at least one node of the incubator is configured to interchangeably handle dry sliding analytical elements of the analysis and these analytical devices side flow. 27. The analyzer according to claim 26, wherein said at least one incubator assembly includes a plurality of nodes in the form of concentric rings, wherein each of said annular assemblies has stations for receiving one of the dry sliding analysis analytical elements and said analytical lateral flow analysis devices . 28. The analyzer according to claim 24, comprising a first incubator assembly for processing dry sliding assay analytical elements and a second incubator assembly for processing said side flow analysis devices. 29. The analyzer according to claim 24, wherein said analyzer further includes an analytical liquid chemical analysis system. 30. The analyzer according to claim 17, wherein said sidestream analytic device further comprises at least one detection region and at least one outlet region, each of these regions being formed on said substrate and in fluid communication with said at least one sample addition region and said at least one reaction region along said at least one side stream fluid path. 31. The analyzer according to claim 30, comprising a plurality of vertically extending protrusions formed on the upper surface of said substrate. 32. The analyzer according to claim 31, wherein said plurality of protrusions have a spatial arrangement relative to each other and dimensions that facilitate the creation of a lateral capillary flow along the specified at least one path of the lateral fluid flow. 33. The analyzer according to claim 31, wherein said plurality of protrusions have a spatial arrangement with respect to each other and dimensions causing spontaneous creation of a lateral capillary flow along said at least one lateral fluid flow path. 34. The analyzer according to claim 33, further comprising a hydrophilic layer located on top of at least a portion of said at least one discharge region. 35. The analyzer according to claim 33, wherein the lateral capillary flow along at least one of said lateral fluid flow paths is provided only by said plurality of protrusions. 36. The analyzer according to claim 35, comprising a plurality of reaction regions formed along said at least one lateral fluid path. 37. The analyzer according to claim 36, in which at least one reaction region contains at least one reagent. 38. The analyzer of claim 37, wherein said at least one reagent is attached to protrusions in said reaction region. 39. The analyzer according to claim 37, including the first reaction region located relative to the specified region of adding samples. 40. The analyzer of claim 39, wherein said first reaction region comprises a detection conjugate. 41. The analyzer according to claim 40, in which as a result of the interaction of the sample and the indicated detection conjugates, a detectable trace is formed. 42. The analyzer according to claim 32, comprising at least one flow channel located between said at least one sample addition region and said at least one discharge region. 43. The analyzer according to claim 42, wherein said protrusions extend from a lower surface of said protrusions. 44. The analyzer according to claim 43, including a reading station located relative to the specified detection tool, and the specified reading station has elements for aligning the analytical side stream device with the specified detection tool. 45. An automated analyzer containing: holding cassettes for separately holding the first set of analytical elements of analysis and the second set of analytical elements of analysis, the first set of analytical elements of analysis containing thin-film sliding elements, and the specified second set of analytical elements of analysis contains analytical device side flow; a dispensing mechanism for dispensing a sample to the sample adding area of each of said first and second set of analytical elements of the analysis; at least one incubator assembly having means for receiving said assay analytical elements; and at least one detection device for detecting results for each of these analytical elements of the analysis. 46. The analyzer according to claim 45, wherein at least one said incubator assembly is configured to interchangeably process said first and said second plurality of analysis elements. 47. The analyzer according to claim 46, wherein said incubator assembly includes a plurality of concentric rings having receiving stations for receiving analysis elements, each ring being configured to interchangeably receive each of said first and second set of analysis elements. 48. The analyzer according to claim 46, wherein said incubator assembly comprises a plurality of concentric rings, wherein at least one said ring is arranged to process one of said first and second sets of analysis elements, and the other said ring is arranged to process another from the indicated first and second sets of analysis elements. 49. The analyzer of claim 45, wherein said sidestream analytic devices comprise a substrate having said at least one sample addition region and at least one reaction region, said device generating a fluorescent signal. 50. The analyzer according to claim 49, comprising a detection tool for detecting a fluorescent signal generated by said side stream analysis devices. 51. The analyzer according to claim 45, further comprising a liquid chemical analysis module for performing immunological analyzes. 52. A method for processing analytical elements of an analysis in an automated clinical analyzer, including the stages at which: introducing the first set of analytical elements of the analysis into the specified automated clinical analyzer, and the specified first set contains analytical devices of the side stream, each of which contains a substrate, at least one region of the addition of the sample and the formed path of the side stream of fluid, including at least one reaction region; dispensing a sample volume to at least one of said lateral flow analytical devices; incubating the specified at least one analytical device side flow; and at least one analysis result from said at least one side-flow analyzer is detected. 53. The method according to p. 52, wherein said introduction step comprises the step of loading into the analyzer a storage cassette comprising a plurality of said side stream analytical devices arranged in a stack. 54. The method of claim 52, wherein said dispensing step comprises the step of sampling the sample from the supply system of said analyzer using a dispensing mechanism and dispensing at least a portion of said collected sample to the sample addition region of said side stream analytic device. 55. The method according to p. 52, wherein said incubation step comprises the step of supplying said sidestream analytic device from a metering station to a receiving station of said incubator. 56. The method according to p. 55, in which the specified stage of the supply is performed using a reciprocating movement of the node of the pusher blade. 57. The method according to p. 52, in which each of the specified analytical device side flow includes many protrusions extending upward from the upper surface of the specified substrate, and the intervals between the centers of the specified many protrusions, as well as their height and diameter are selected with the possibility of creating a capillary flow of the sample, plotted on the indicated area to add samples. 58. The method of claim 52, wherein said sidestream analytic device comprises at least one sample addition region, at least one reaction region and at least one outlet region, each of these regions being in fluid communication with each other and forms at least one fluid flow path. 59. The method of claim 58, wherein said sidestream analytic device generates a fluorescent signal. 60. The method of claim 59, wherein said detecting step comprises an additional step of aligning the analytical sidestream device and detecting the fluorescent signal using a fluorimeter. 61. The method according to p. 52, comprising an additional step of introducing a second set of analytical elements of the analysis into an automated clinical analyzer, said second set containing thin-film sliding elements, said method further comprising dosing the amount of sample into the sample addition area of said thin-film sliding elements, incubate these sliding elements and identify at least one corresponding analysis result. 62. The method according to p. 61, in which the first and second sets of analytical elements of the analysis process the specified automated clinical analyzer on an interchangeable basis. 63. The method according to p. 52, comprising an additional step of providing a liquid chemical analysis system on the specified automated clinical analyzer. 64. A sidestream device for use in both a portable analyzer and an automated clinical analyzer, comprising a flat substrate having at least one sample addition region and at least one reaction region disposed thereon, said regions communicating with each other via fluid and form at least one side stream path of the fluid, and the specified side stream device can be used both in a portable analyzer and in an automated linicheskom analyzer without modifications. 65. The side stream device according to claim 64, which has the same dimensions both when used in a portable analyzer and in an automated clinical analyzer.